Cord lock

ABSTRACT

A cord lock includes various components used to slidably adjust a length of cord. The cord lock may include a first cord-clamp bar and a second cord-clamp bar that are movably coupled to each other, to allow control of frictional resistance on a cord threaded through various apertures and cord-receiving channels of the cord lock. The cord lock may be incorporated into an article such that it is at least partially concealed within an article layer.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. Non-Provisionalpatent application Ser. No. 15/685,602, filed Aug. 24, 2017, and titled“Cord Lock,” which claims priority to U.S. Provisional Patent App. No.62/379,977, filed Aug. 26, 2016, and titled “Cord Lock.” Both of theseapplications are incorporated herein by reference in the entirety.

TECHNICAL FIELD

The field relates to cord locks.

BACKGROUND

Drawcords or just “cords” (also sometimes referred to as laces, cables,drawstrings, and the like) are commonly integrated into various types ofarticles (e.g., bags, garments, etc.) to modify a feature of thearticle, such as a size, dimension, or shape. Cord locks provide amechanism to adjust, and set, a length of cord. Sometimes the cord lockis only attached to the cord, and not to the article itself, which canresult in the cord lock being lost or misplaced if the cord lock isdisconnected from the cord. Additionally, a cord lock that is onlyattached to the cord may be flung about by the cord, which can beundesirable, even if only to a small degree.

BRIEF DESCRIPTION OF THE DRAWINGS

Aspects of the present disclosure are described in detail with referenceto the figures, which are incorporated herein by reference, and whichare intended to be exemplary and non-limiting in nature, wherein:

FIG. 1 depicts a perspective view of an article incorporating a cordlock, in accordance with an aspect hereof;

FIG. 2 depicts an exploded view of the article shown in FIG. 1, inaccordance with an aspect hereof;

FIG. 3 depicts the article shown in FIG. 2 with a force applied to thecord lock, in accordance with an aspect hereof;

FIG. 4 depicts an exploded view of the cord lock shown in FIGS. 2-3, inaccordance with an aspect hereof;

FIG. 5 depicts an alternate perspective view of the cord lock shown inFIG. 4, in accordance with an aspect hereof;

FIG. 6 depicts the cord lock shown in FIGS. 2-5 in a resting state witha cord threadably positioned therein, in accordance with an aspecthereof;

FIG. 7 depicts the cord lock shown in FIG. 6 in an engaged state with aforce applied to the cord lock, in accordance with an aspect hereof;

FIG. 8 depicts a cross-section elevation view of the cord lock shown inFIGS. 2-7, in accordance with an aspect hereof;

FIG. 9 depicts the cord lock shown in FIG. 8 with a force applied to thecord lock, in accordance with an aspect hereof;

FIG. 10 depicts an exploded perspective view of the cord lock shown inFIGS. 3-4 along with a textile layer, in accordance with an aspecthereof; and

FIG. 11 depicts an elevation cross-section view of the cord lock shownin FIG. 10 positioned within a tubular sleeve formed by the textilelayer, in accordance with an aspect hereof.

DETAILED DESCRIPTION

The subject matter of various aspects of the present disclosure isdescribed with specificity herein to meet statutory requirements.However, the description itself is not intended to limit the scope ofthe invention. Rather, the claimed subject matter may be embodied orcarried out in other ways, to include different elements, combinations,components, configurations, and/or steps, including those similar to theones described in this disclosure, in conjunction with other present orfuture technologies.

The present disclosure relates generally to cord locks and articlesincorporating the same. An exemplary cord lock may include one or morecomponents that releasably clamp onto a cord, allowing slidableadjustment of a length of the cord in response to a force applied to thecord lock. The cord lock may be incorporated into an article or articlelayer such that it is at least partially concealed, and may be used toadjust a length of cord extending from or through the article.

In one aspect, a cord lock is provided. The cord lock comprises a firstcord-clamp bar having a first-bar body with a first side and a secondside, the second side generally opposing the first side, the first-barbody including a first thickness between the first side and the secondside. The first-bar body includes a first aperture and a second aperturethat extend entirely through the first thickness from the first side tothe second side. The first cord-clamp bar includes a first protrudingmember that extends from the second side, the first protruding memberincluding a first cord-receiving channel. The first cord-clamp barincludes a second protruding member that extends from the second side,the second protruding member including a second cord-receiving channel.The cord lock further comprises a second cord-clamp bar having asecond-bar body with a third side and a fourth side, the third sidegenerally opposing the fourth side and facing towards the second side ofthe first cord-clamp bar, the second-bar body including a secondthickness between the third side and the fourth side. The second-barbody includes a third aperture and a fourth aperture that extendentirely through the second thickness of the second-bar body from thethird side to the fourth side. The first protruding member extendsthrough the third aperture and the second protruding member extendsthrough the fourth aperture. The second cord-clamp bar includes a fifthaperture and a sixth aperture extending entirely though the secondthickness, the fifth aperture being axially aligned with the firstaperture and including a third cord-receiving channel, the sixthaperture being axially aligned with the second aperture and including afourth cord-receiving channel. The cord lock further comprises a biasingelement coupled between the first cord-clamp bar and the secondcord-clamp bar.

In another aspect, an article is provided. The article comprises a firstcord-clamp bar having a first-bar body with a first side and a secondside, the second side generally opposing the first side, the first-barbody including a first thickness between the first side and the secondside. The first-bar body includes a first aperture and a second aperturethat extend entirely through the first thickness from the first side tothe second side. The first cord-clamp bar includes a first protrudingmember that extends from the second side, the first protruding memberincluding a first cord-receiving channel. The first cord-clamp bar alsoincludes a second protruding member that extends from the second side,the second protruding member including a second cord-receiving channel.The article further comprises a second cord-clamp bar having asecond-bar body with a third side and a fourth side, the third sidegenerally opposing the fourth side and facing towards the second side ofthe first cord-clamp bar, the second-bar body including a secondthickness between the third side and the fourth side. The second-barbody includes a third aperture and a fourth aperture that extendentirely through the second thickness of the second-bar body from thethird side to the fourth side. The first protruding member extendsthrough the third aperture and the second protruding member extendsthrough the fourth aperture. The second cord-clamp bar includes a firstprotruding tubular member that extends from the third side of thesecond-bar body and through the first aperture of the first-bar body,the first protruding tubular member including a third cord-receivingchannel. The second cord-clamp bar also includes a second protrudingtubular member that extends from the third side of the second-bar bodyand through the second aperture of the first-bar body, the secondprotruding tubular member including a fourth cord-receiving channel. Thearticle further comprises a biasing element coupled between the firstcord-clamp bar and the second cord-clamp bar, and a first textile layerhaving a first surface and a second surface. The first textile layer hasa first textile aperture and a second textile aperture extendingentirely through a thickness of the first textile layer from the firstsurface to the second surface, the second surface facing towards thefirst side of the first cord-clamp bar. The article further comprises acord passing sequentially through the first cord-receiving channel, thethird cord-receiving channel, the fourth cord-receiving channel, and thesecond cord-receiving channel. The cord further extends through thefirst textile aperture and the second textile aperture.

In another aspect, an article is provided. The article comprises a firstcord-clamp bar having a first-bar body with a first side and a secondside, the second side generally opposing the first side, the first-barbody including a first thickness between the first side and the secondside. The first-bar body includes a first aperture defined by afirst-aperture collar and a second aperture defined by a second-aperturecollar, the first aperture and the second aperture extending entirelythrough the first thickness from the first side to the second side. Thefirst cord-clamp bar also includes a first protruding member thatextends from the second side, the first protruding member including afirst cord-receiving channel. The first cord-clamp bar further includesa second protruding member that extends from the second side, the secondprotruding member including a second cord-receiving channel. The articlefurther comprises a second cord-clamp bar having a second-bar body witha third side and a fourth side, the third side generally opposing thefourth side and facing towards the second side of the first cord-clampbar. The second-bar body includes a second thickness between the thirdside and the fourth side. The second-bar body also includes a thirdaperture and a fourth aperture that extend entirely through the secondthickness of the second-bar body from the third side to the fourth side.The first protruding member extends through the third aperture and thesecond protruding member extends through the fourth aperture. The secondcord-clamp bar includes a fifth aperture and a sixth aperture extendingentirely though the second thickness. The fifth aperture is axiallyaligned with the first aperture and includes a third cord-receivingchannel, and the sixth aperture is axially aligned with the secondaperture and includes a fourth cord-receiving channel. The articlefurther comprises a biasing element coupled between the first cord-clampbar and the second cord-clamp bar. The article further comprises atextile layer having a first surface and a second surface, the textilelayer having a first textile aperture and a second textile apertureextending entirely through a thickness of the textile layer from thefirst surface to the second surface, the second surface facing towardsthe first side of the first cord-clamp bar. The article furthercomprises a first grommet that reinforces the first textile aperture andis coupled to the textile layer and to the first-aperture collar, and asecond grommet that reinforces the second textile aperture and iscoupled to the textile layer and to the second-aperture collar. A cordpasses sequentially through the first cord-receiving channel, the thirdcord-receiving channel, the fourth cord-receiving channel, and thesecond cord-receiving channel.

A “cord” as used herein includes, but is not limited to, a string,strand, fiber, cord, rope, yarn, thread, strap, ribbon, lace, band, andthe like. A cord may be comprised of multiple filaments or amonofilament. A band may be wound, braided, knit, woven, spun, cut, andthe like. In an exemplary aspect, a cord is an element used inconnection with apparel, footwear, equipment, and the like to secure,tighten, constrict, wrap, or otherwise exert a tensioning force about anelement (e.g., a wearer or an article). Specifically, it is contemplatedherein that a cord, cord lock, and/or article or article layerincorporating a cord lock may be used in connection with a shirt,jacket, pant, pair of shorts, ¾ or capris, an article of footwear orouterwear (e.g., gloves, mittens, hat, rain gear, winter gear, etc.),swimwear, bags, outdoor gear (e.g., a tent, a sleeping bag, etc.), andthe like. The above-listed use considerations are intended to beexemplary and non-limiting in nature, and other uses are contemplated.

A “biasing element” as used herein may comprise one or more springs,cushions, and/or other elastic or elastically resilient components thatprovide a biasing force between movable parts of a cord lock. A biasingelement may also include a pair of magnets having the same polesoriented towards each other (e.g., a first magnet with a first northpole and a first south pole and a second magnet with a second north poleand a second south pole, where either the first and second north polesor the first and second south poles are oriented towards each other toprovide a repelling force that acts as a biasing force). Additionally, a“cord lock” as used herein may comprise a device with one or morecomponents, at least some of which are movable relative to each otherfor releasably clamping onto a cord to restrict movement of the cordthrough the cord lock.

Referring to FIG. 1, a perspective view of a portion of an article 100with a cord lock 102 integrated therein is provided, in accordance withan aspect hereof. The article 100 includes an article layer 104 that isfolded over and joined to itself to form a tubular casing 106. Thetubular casing 106 may be formed of a single piece of material (e.g.,the article layer 104), as shown in FIG. 1, or in alternate aspects maybe formed of a composite construction. The composite construction mayinclude multiple pieces of material and/or multiple layers joinedtogether.

FIG. 1 further depicts a cord 108 extending through the tubular casing106 and through the cord lock 102. A looped portion 110 of the cord 108is exposed outside of the tubular casing 106. A length of the loopedportion 110 may be adjusted by applying a force to the cord lock 102 andpulling on the looped portion 110 of the cord 108 to slide the cord 108through the cord lock 102. Adjusting the length of the looped portion110 may allow for modification of a characteristic of the article 100,such as a size of an opening. As shown in FIG. 1, the cord lock 102 isat least partially concealed within the article 100, and morespecifically within the tubular casing 106 formed by the article layer104. The article layer 104 may comprise a woven or knitted textile, apolymer or partial-polymer material, a natural or synthetic material,and/or another type of material, textile, or layer.

Referring to FIGS. 2-3, exploded perspective views of the article 100shown in FIG. 1 are provided, in accordance with aspects hereof. In FIG.2, the cord lock 102 is shown in a resting state with no external forceapplied, and in FIG. 3, the cord lock 102 is shown in an engaged statewith an external force 112 applied. The force 112 moves components ofthe cord lock 102 relative to each other, increasing alignment ofvarious pathways within the cord lock 102. This increased alignment, inturn, reduces restriction on the cord 108 in the cord lock 102, allowingthe cord 108 to slide through the cord lock 102 with less frictionalresistance. As shown in FIGS. 2-3, the cord lock 102 is at leastpartially concealed within the article layer 104. Such concealment maystreamline the surface contours of the article 100, and/or at leastpartially protect and/or obscure components of the cord lock 102.

The cord lock 102 further includes a first cord-clamp bar 114 having afirst-bar body 101 and a second cord-clamp bar 116 having a second-barbody 103. The first and second cord-clamp bars 114, 116 are movablycoupled to each other, with a portion of each cord-clamp bar 114, 116extending into and/or through the other cord-clamp bar 114 or 116. Assuch, when the cord-clamp bars 114, 116 are moved relative to eachother, alignment of various through-passages and apertures in the cordlock 102 may occur to reduce restriction on a cord positioned therein.In FIGS. 2-3, the cord lock 102 is positioned between a first side 104Aand a second side 104B of the tubular casing 106, being located in aninterior space 105. Although shown separate, when assembled, the firstand second sides 104A, 104B may be of a unitary or compositeconstruction, and may at least partially retain or house the cord lock102.

Referring to FIGS. 4-5, exploded perspective views of the cord lock 102shown in FIGS. 2-3 are provided, in accordance with aspects hereof. Thefirst-bar body 101 of the first cord-clamp bar 114 includes a first side115 and an opposite second side 117 defining a first thickness 118, andalso, a first aperture 122 and a second aperture 124 that extend throughthe first thickness 118. Extending from the second side 117 of the firstcord-clamp bar 114 is a first protruding member 126 and a secondprotruding member 128. The first and second protruding members 126, 128extend generally perpendicularly from the first cord-clamp bar 114. Thefirst protruding member 126 includes a first cord-receiving channel 130(i.e., cord through-channel) and the second protruding member 128includes a second cord-receiving channel 132 (i.e., cordthrough-channel). In FIGS. 4-5, the first and second apertures 122, 124and first and second cord-receiving channels 130, 132 are orientedperpendicularly to each other. In other words, the first and secondapertures 122, 124 may be viewed as being oriented along a firsthypothetical axis, and the first and second cord-receiving channels 130,132 may be viewed as being oriented along a second hypothetical axisthat is perpendicular to the first hypothetical axis.

The second-bar body 103 of the second cord-clamp bar 116 includes athird side 134 and an opposite fourth side 136 that define a secondthickness 120, and also, a third aperture 138 and a fourth aperture 140that extend through the second thickness 120. The third and fourthapertures 138, 140 are generally shaped to correspond to thecross-sectional shape of the respective first and second protrudingmembers 126, 128 of the first cord-clamp bar 114. The second cord-clampbar 116 also includes a first protruding tubular member 146 and a secondprotruding tubular member 148 that extend from the third side 134 of thesecond cord-clamp bar 116. Furthermore, the second cord-clamp bar 116includes a fifth aperture 142 and a sixth aperture 144 that extendentirely through the second thickness 120 of the second cord-clamp bar116, as well as through the respective first and second protrudingtubular members 146, 148. The fifth and sixth apertures 142, 144 alsoprovide third and fourth cord-receiving channels 150, 152 in therespective first and second protruding tubular members 146, 148.

The first and second protruding tubular members 146, 148 are sized andpositioned on the second cord-clamp bar 116 such that they can bemovably received in the respective first and second apertures 122, 124of the first cord-clamp bar 114. A biasing element 154 is coupledbetween the first and second cord-clamp bars 114, 116 to provide a forcethat elastically resists movement of the first and second cord-clampbars 114, 116 together. As discussed further in later sections, themovement of the first and second protruding members 126, 128 through therespective third and fourth apertures 138, 140 of the second cord-clampbar 116 and the movement of the first and second protruding tubularmembers 146, 148 through the respective first and second apertures 122,124 of the first clamp bar 114 provide alignment or de-alignment ofvarious pathways in the cord lock 102, depending on the direction ofmovement. This alignment/de-alignment may be used to control an amountof resistance applied to a cord positioned in the cord lock 102 byincreasing friction and/or angular direction of the cord in the cordlock 102.

Referring to FIGS. 6-7, the cord lock 102 of FIGS. 2-5 assembled with acord positioned therein is provided, in accordance with aspects hereof.In FIGS. 6-7, the cord lock 102 includes the cord 108 threaded throughthe first, second, third, and fourth cord-receiving channels 130, 132,150, 152. The biasing element 154 is coupled between the firstcord-clamp bar 114 and the second cord-clamp bar 116, and provides abiasing force against the second side 117 of the first cord-clamp bar114 and the third side 134 of the second cord-clamp bar 116. In thisrespect, when the force 112 is not applied to counteract the biasingforce, the first protruding member 126 moves to a first clampingposition 156 (shown in FIG. 6) in which a first portion of the firstcord-receiving channel 130 is circumscribed by a perimeter of the thirdaperture 138, and the second protruding member 128 moves to a secondclamping position 157 (shown in FIG. 6) in which a second portion of thesecond cord-receiving channel 132 is circumscribed by a perimeter of thefourth aperture 140. In the first and second clamping positions 156,157, the cord 108 is actively squeezed or forced against an edge of therespective third and fourth apertures 138, 140 of the second cord-clampbar 116, increasing friction on the cord 108.

When the force 112 is applied to the cord lock 102 to resist the forceof the biasing element 154, as shown in FIG. 7, the first protrudingmember 126 moves to a first release position 158 (shown in FIG. 7) inwhich a third portion of the first cord-receiving channel 130 iscircumscribed by the perimeter of the third aperture 138, and the secondprotruding member 128 moves to a second release position 159 (shown inFIG. 7) in which a fourth portion of the second cord-receiving channel132 is circumscribed by the fourth aperture 140. In the first and secondrelease positions 158, 159, a cross-sectional area of the first andsecond cord-receiving channels 130, 132 that is exposed from the fourthside 136 of the second clamp bar 116 is greater than in the first andsecond clamping positions 156, 157. As such, in the first and secondrelease positions 158, 159, the amount of friction applied to the cord108 is less than in the first and second clamping positions 156, 157,due to the larger portion of the first and second cord-receivingchannels 130, 132 that is exposed, allowing the cord 108 to slidethrough the cord lock 102 with less frictional resistance.

Referring to FIGS. 8-9, cross-section elevation views of the cord lock102 shown in FIGS. 2-7 are provided, in accordance with aspects hereof.In FIGS. 8-9, the components of the cord lock 102 are again depicted.Additionally, the first protruding member 126 includes afirst-protruding-member thickness 160 and the third aperture 138includes a third-aperture width 162, the third-aperture width 162 beinglarger than the first-protruding-member thickness 160, such as by anamount that is less than double a thickness 161 of the cord 108. Thesecond protruding member 128 includes a second-protruding-memberthickness 164 and the fourth aperture 140 includes a fourth-aperturewidth 166. The fourth-aperture width 166 may be larger than thesecond-protruding-member thickness 164, such as by an amount that isless than double the thickness 161 of the cord 108.

As further shown in FIGS. 8-9, the first protruding tubular member 146includes a first tubular wall 147 that at least partially circumscribesthe fifth aperture 142 and the third cord-receiving channel 150, and thesecond protruding tubular member 148 further includes a second tubularwall 149 that at least partially circumscribes the sixth aperture 144and the fourth cord-receiving channel 152. As shown in FIG. 9, theapplication of the force 112 to the cord lock 102 adjusts the part ofthe tubular walls 147, 149 positioned in the respective first and secondapertures 122, 124 of the first cord-clamp bar 114, and provides greaterlinearity of the path of the cord 108 between the first and thirdcord-receiving channels 130, 150 and between the second and fourthcord-receiving channels 132, 152 which, in turn, reduces friction andresistance on the cord 108.

Referring to FIG. 10, a partial, exploded, perspective view of anarticle 200 incorporating the cord lock 102 is provided, in accordancewith an aspect hereof. FIG. 10 once again depicts the cord lock 102 andthe components thereof, in addition to a first textile layer 168 havingfirst and second textile apertures 174, 176 circumscribed by first andsecond aperture collars 175, 177 that form a perimeter around the firstand second textile apertures 174, 176. The article 200 further includesfirst and second grommets 190, 192 that may be coupled to the cord lock102 and to the first textile layer 168. The first textile layer 168includes a first surface 170 and a second surface 172, with the firstand second textile apertures 174, 176 extending through a thickness 169of the first textile layer 168 between the first surface 170 and thesecond surface 172. Accordingly, when the article 200 is assembled, atleast a portion of the first protruding tubular member 146 may extendinto and/or through the first textile aperture 174, and at least aportion of the second protruding tubular member 148 may extend intoand/or through the second textile aperture 176.

The first and second grommets 190, 192 shown in FIG. 10 may beconfigured to be joined to the first textile layer 168 and/or to thecord lock 102. The first grommet 190 includes a first-grommet flange 194that may be coupled to the first surface 170 of the first textile layer168 or to the first or second side 115, 117 of the first cord-clamp bar114, and the second grommet 192 includes a second-grommet flange 196that may be coupled to the first surface 170 of the first textile layer168 or to the first or second side 115, 117 of the first cord-clamp bar114, to secure the cord lock 102 to the first textile layer 168. Thecoupling between the first and second grommets 190, 192 and the firsttextile layer 168 or the cord lock 102 may utilize adhesive, frictionalcoupling, welding (e.g., ultrasonic welding), hook-and-loop fasteners,and/or another attachment method.

Furthermore, in another sense, the first and second grommets 190, 192may be coupled to, and/or inserted through, the first cord-clamp bar 114from the first surface 170 and through the first textile layer 168, suchthat the first and second grommet flanges 194, 196 are positionedagainst or abut the first surface 170 of the first textile layer 168.Alternatively, the first and second grommets 190, 192 may be coupled to,and/or inserted through, the first cord-clamp bar 114 from the secondside 117 of the first cord-clamp bar 114, such that the first and secondgrommet flanges 194, 196 are positioned against or abut the second side117 of the first cord-clamp bar 114. In this sense, the first and secondgrommets 190, 192 may be inserted through either side 115, 117 of thefirst cord-clamp bar 114 and/or either side of the first textile layer168, in exemplary aspects.

Referring to FIG. 11, a partial, elevation, cross-section view of anarticle 300 incorporating the cord lock 102 is provided, in accordancewith an aspect hereof. In FIG. 11, the cord lock 102 and the componentsthereof are once again shown. The first side 115 of the first cord-clampbar 114 is adjacent and coupled to the second surface 172 of the firsttextile layer 168. The first and second protruding tubular members 146,148 extend at least partially through the first and second textileapertures 174, 176, thereby also extending the third and fourthcord-receiving channels 150, 152 through the first and second textileapertures 174, 176. As a result, a path for the cord 108 to pass throughthe first textile layer 168 is provided. The first and second grommets190, 192 are coupled to the respective first and second aperture collars175, 177 and to the cord lock 102, with the first and second grommetflanges 194, 196 coupled to the first surface 170 of the first textilelayer 168. In alternate aspects, the first and second grommet flanges194, 196 may be coupled to the second side 117 of the first cord-clampbar 114, or to another part of the cord lock 102.

As shown in FIG. 11, the cord 108 passes sequentially through the firstcord-receiving channel 130, the third cord-receiving channel 150, thefourth cord-receiving channel 152, and the second cord-receiving channel132. In the aspect shown in FIG. 11, the first cord-clamp bar 114 andthe second cord-clamp bar 116 are oriented such that they are movablerelative to each other along a hypothetical axis of the first and secondtextile apertures 174, 176. In other words, a force applied against thecord lock 102 along the hypothetical axis of the first and secondtextile apertures 174, 176 may move the first and second cord-clamp bars114, 116 relative to each other, increasing or decreasing resistance onthe cord 108 positioned in the cord lock 102.

Further provided in FIG. 11 is a second textile layer 180. In aspects,the second textile layer 180 may be secured to the cord lock 102 (e.g.,to the first and second protruding members 126, 128), or may beunsecured from the cord lock 102 (i.e., free-floating relative to thecord lock 102). The second textile layer 180 includes a third surface181 and a fourth surface 182. The third surface 181 faces towards, andis spaced apart from, the second surface 172 of the first textile layer168. Additionally, the first and second cord-clamp bars 114, 116 arepositioned between the second surface 172 of the first textile layer 168and the third surface 181 of the second textile layer 180. The firsttextile layer 168 and the second textile layer 180 may be coupled toform a tubular sleeve 184 (e.g., through a unitary or compositeconstruction), which may be similar to or the same as the tubular casing106 shown in FIG. 1. In FIG. 11, the cord 108 includes a first cordportion 185 that is enclosed by the tubular sleeve 184, a second cordportion 186 that is not enclosed by the tubular sleeve 184, and a thirdcord portion 187 that is enclosed by the tubular sleeve 184. The secondcord portion 186 extends directly from the third cord-receiving channel150 to the fourth cord-receiving channel 152.

In an exemplary implementation and use, the cord lock 102 may beincorporated into a cuff, sleeve, layer, or other portion of an article.The cord lock 102 may be engaged by a user squeezing the cuff, sleeve,layer, or other portion of the article to move the first and secondcord-clamp bars 114, 116 together, providing greater alignment ofapertures and through-channels in the cord lock 102. As a result,restriction on the cord 108 positioned in the cord lock 102 is reduced,and a user may pull on the looped portion 110 of the cord 108 to adjustits length as desired with less resistance than when the cord lock 102is in a resting state with no force applied. Upon removing the force tothe cuff, sleeve, layer, or other portion of the article, the first andsecond cord-clamp bars 114, 116 will once again move apart, increasingfrictional resistance on the cord 108.

From the foregoing, it will be seen that this invention is one welladapted to attain all the ends and objects hereinabove set forthtogether with other advantages which are obvious and which are inherentto the structure. It will be understood that certain features andsubcombinations are of utility and may be employed without reference toother features and subcombinations. This is contemplated by and iswithin the scope of the claims. Since many possible aspects may be madeof the invention without departing from the scope thereof, it is to beunderstood that all matter herein set forth or shown in the accompanyingdrawings is to be interpreted as illustrative and non-limiting.

What is claimed is:
 1. A method of manufacturing a cord lock, the methodcomprising: forming a first cord-clamp bar having a first-bar body witha first side and a second side, the second side opposite to the firstside, the first-bar body including a first thickness between the firstside and the second side, wherein the first-bar body includes a firstaperture and a second aperture that extend entirely through the firstthickness of the first-bar body from the first side to the second side,wherein the first cord-clamp bar includes a first protruding member thatextends from the second side of the first-bar body, the first protrudingmember including a first cord-receiving channel, and wherein the firstcord-clamp bar includes a second protruding member that extends from thesecond side of the first-bar body, the second protruding memberincluding a second cord-receiving channel; forming a second cord-clampbar having a second-bar body with a third side and a fourth side, thethird side opposite to the fourth side, the second-bar body including asecond thickness between the third side and the fourth side, wherein thesecond-bar body includes a third aperture and a fourth aperture thatextend entirely through the second thickness of the second-bar body fromthe third side to the fourth side, the first protruding member of thefirst cord-clamp bar extending through the third aperture, the secondprotruding member of the first cord-clamp bar extending through thefourth aperture, and wherein the second cord-clamp bar includes a fifthaperture and a sixth aperture extending entirely though the secondthickness of the second-bar body, the fifth aperture being axiallyaligned with the first aperture and including a third cord-receivingchannel, and the sixth aperture being axially aligned with the secondaperture and including a fourth cord-receiving channel; and coupling abiasing element between the first cord-clamp bar and the secondcord-clamp bar.
 2. The method of manufacturing the cord lock of claim 1,further comprising extending a cord through the first, second, third,and fourth cord-receiving channels.
 3. The method of manufacturing thecord lock of claim 1, wherein the biasing element comprises a spring. 4.The method of manufacturing the cord lock of claim 1, wherein thebiasing element comprises a pair of magnets.
 5. The method ofmanufacturing the cord lock of claim 1, further comprising incorporatingthe cord lock at least partially with an article layer.
 6. The method ofmanufacturing the cord lock of claim 5, wherein the article layer formsat least a portion of an article.
 7. The method of manufacturing thecord lock of claim 6, further comprising extending a cord through thecord lock and through the article layer.
 8. The method of manufacturingthe cord lock of claim 1, further comprising extending a cord throughthe cord lock, wherein the cord comprises a monofilament.
 9. The methodof manufacturing the cord lock of claim 1, further comprising extendinga cord through the cord lock, wherein the cord comprises multiplefilaments.
 10. A cord lock, comprising: a first cord-clamp bar, whereinthe first cord-clamp bar comprises a first aperture and a secondaperture spaced from the first aperture, and wherein the firstcord-clamp bar includes a first protruding member having a firstcord-receiving channel and a second protruding member having a secondcord-receiving channel, the second protruding member spaced from thefirst protruding member; a second cord-clamp bar, wherein the secondcord-clamp bar includes a third aperture and a fourth aperture spacedfrom the third aperture, wherein the first protruding member isalignable with the third aperture and is extendable therethrough, andwherein the second protruding member is alignable with the fourthaperture and is extendable therethrough; and a biasing element thatbiases the first cord-clamp bar and the second cord-clamp bar away fromeach other.
 11. The cord lock of claim 10, further comprising a cordextending through the first cord-receiving channel and the secondcord-receiving channel.
 12. The cord lock of claim 10, wherein thebiasing element comprises a spring.
 13. The cord lock of claim 10,wherein the biasing element comprises a pair of magnets.
 14. The cordlock of claim 10, wherein the cord lock is at least partiallyincorporated with an article layer.
 15. The cord lock of claim 10,wherein the article layer forms at least a portion of an article. 16.The cord lock of claim 10, further comprising a cord extending throughthe cord lock, wherein the biasing element biases the first cord-clampbar away from the second cord-clamp bar to impart frictional resistanceto the cord extending through the cord lock.
 17. A method ofmanufacturing a cord lock, the method comprising: forming a firstcord-clamp bar, wherein the first cord-clamp bar comprises a firstaperture and a second aperture spaced from the first aperture, andwherein the first cord-clamp bar includes a first protruding memberhaving a first cord-receiving channel and a second protruding memberhaving a second cord-receiving channel, the second protruding memberspaced from the first protruding member; forming a second cord-clampbar, wherein the second cord-clamp bar includes a third aperture and afourth aperture spaced from the third aperture, wherein the firstprotruding member is alignable with the third aperture and is extendabletherethrough, and wherein the second protruding member is alignable withthe fourth aperture and is extendable therethrough; and coupling abiasing element between the first cord-clamp bar and the secondcord-clamp bar, such that the biasing element biases the firstcord-clamp bar and the second cord-clamp bar away from each other. 18.The method of manufacturing the cord lock of claim 17, furthercomprising extending a cord through the first cord-receiving channel andthe second cord-receiving channel.
 19. The method of manufacturing thecord lock of claim 17, further comprising at least partiallyincorporating the cord lock with an article layer.
 20. The method ofmanufacturing the cord lock of claim 17, wherein the article layer formsat least a portion of an article.